Abstract
As the first line of host immune defense, innate immunity plays a key role in warding off foreign pathogens and damage. Drosophila melanogaster, as a classical model animal for more than 100 years, is an important research model for studying innate immunity. In recent years, scientists have made remarkable progress in the recognition mechanisms of innate immunity, the mechanisms of effector molecules, and the modes of their response at the cellular and tissue levels. However, the interaction between innate immunity and other physiological functions remains relatively novel and has yet to be systematically explored. Here, we first briefly discuss the link between the innate immunity system and physiological regulation, from several representative perspectives such as sleep, insulin, and brain function. Then, using Drosophila as a model, we provide an overview of the physiological system and specifically summarize the research on the regulation of physiology by innate immunity, covering sleep, lipid metabolism, development, neurodegenerative diseases, memory, feeding, lifespan, movement, and antioxidation. This review provides valuable perspectives into how innate immunity influences other physiological processes, providing a deeper understanding of the complex roles underlying innate immunity.
